This paper presents a study of the effect of moisture on the gas permeability of polyvinyl alcohol (PVOH) and PVOHâkaolin dispersion barrier coatings. The oxygen permeability was measured at different humidity levels, and the material properties were characterized under the same conditions: polymer crystallinity, kaolin concentration, and kaolin orientation were all evaluated. The experimental results revealed that the water plasticizes the PVOH material of the coatings, and the presence of kaolin filler is unable to affect such behavior significantly. The PVOH crystallinity was affected drastically by the humidity, as water melts polymer crystallites, which is a reversible process under removal of water. The permeability data were analyzed using a thermodynamic-based model able to account for the water effect on both the solubility of the gas and the diffusivity coefficients in the polymer and composite. The results showed good agreement between the modelâs predictions and the experimental data in terms of the overall permeability of the material.
The influence of moisture content on the polymer structure of polyvinyl alcohol in dispersion barrier coatings and its effect on the mass transport of oxygen / Åsa, Nyflött; Çağlar, Meriçer; Matteo, Minelli; Ellen, Moons; Lars, Järnström; Magnus, Lestelius; Marco, Giacinti Baschetti. - In: JOURNAL OF COATINGS TECHNOLOGY AND RESEARCH. - ISSN 1935-3804. - STAMPA. - 14:6(2017), pp. 1345-1355. [10.1007/s11998-017-9937-2]
The influence of moisture content on the polymer structure of polyvinyl alcohol in dispersion barrier coatings and its effect on the mass transport of oxygen
Çağlar, Meriçer;Matteo Minelli;Marco, Giacinti Baschetti
2017
Abstract
This paper presents a study of the effect of moisture on the gas permeability of polyvinyl alcohol (PVOH) and PVOHâkaolin dispersion barrier coatings. The oxygen permeability was measured at different humidity levels, and the material properties were characterized under the same conditions: polymer crystallinity, kaolin concentration, and kaolin orientation were all evaluated. The experimental results revealed that the water plasticizes the PVOH material of the coatings, and the presence of kaolin filler is unable to affect such behavior significantly. The PVOH crystallinity was affected drastically by the humidity, as water melts polymer crystallites, which is a reversible process under removal of water. The permeability data were analyzed using a thermodynamic-based model able to account for the water effect on both the solubility of the gas and the diffusivity coefficients in the polymer and composite. The results showed good agreement between the modelâs predictions and the experimental data in terms of the overall permeability of the material.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
